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Related Concept Videos

CRISPR01:59

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Genome editing technologies allow scientists to modify an organism’s DNA via the addition, removal, or rearrangement of genetic material at specific genomic locations. These types of techniques could potentially be used to cure genetic disorders such as hemophilia and sickle cell anemia. One popular and widely used DNA-editing research tool that could lead to safe and effective cures for genetic disorders is the CRISPR-Cas9 system. CRISPR-Cas9 stands for Clustered Regularly Interspaced...
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CRISPR and crRNAs02:53

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Bacteria and archaea are susceptible to viral infections just like eukaryotes; therefore, they have developed a unique adaptive immune system to protect themselves. Clustered regularly interspaced short palindromic repeats and CRISPR-associated proteins (CRISPR-Cas) are present in more than 45% of known bacteria and 90% of known archaea.
The CRISPR-Cas system stores a copy of foreign DNA in the host genome and uses it to identify the foreign DNA upon reinfection. CRISPR-Cas has three different...
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CrnnCrispr: An Interpretable Deep Learning Method for CRISPR/Cas9 sgRNA On-Target Activity Prediction.

Wentao Zhu1, Huanzeng Xie1, Yaowen Chen1

  • 1College of Engineering, Shantou University, Shantou 515063, China.

International Journal of Molecular Sciences
|April 27, 2024
PubMed
Summary
This summary is machine-generated.

Predicting single-guide RNA (sgRNA) activity is crucial for CRISPR/Cas9 genome editing. Our novel CrnnCrispr deep learning model significantly improves prediction accuracy and generalizability, advancing the tool's applications.

Keywords:
CRISPR/Cas9DeepSHAPdeep learningon-targetsgRNA

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Area of Science:

  • Molecular Biology
  • Bioinformatics
  • Genomics

Background:

  • CRISPR/Cas9 is a revolutionary genome-editing technology.
  • Accurate prediction of single-guide RNA (sgRNA) activity is essential for its effective application.
  • Current deep-learning methods for sgRNA activity prediction have limitations.

Purpose of the Study:

  • To develop an improved deep-learning model for predicting CRISPR/Cas9 sgRNA on-target activity.
  • To enhance the accuracy and generalizability of sgRNA activity prediction.
  • To investigate nucleotide-position-dependent patterns influencing sgRNA activity.

Main Methods:

  • Proposed CrnnCrispr, a hybrid neural network integrating convolutional neural networks (CNN) and recurrent neural networks (RNN).
  • Conducted unbiased experiments comparing CrnnCrispr with four mainstream methods on nine public datasets.
  • Implemented a transfer learning strategy to enhance performance on small datasets.

Main Results:

  • CrnnCrispr demonstrated superior performance over existing methods in predicting sgRNA on-target activity.
  • The model exhibited improved accuracy and generalizability across diverse datasets.
  • Visualization revealed generalizable nucleotide-position-dependent patterns crucial for sgRNA function.

Conclusions:

  • CrnnCrispr offers a more accurate and generalizable approach to predicting sgRNA activity.
  • The model's interpretability through visualization aids in understanding sgRNA design principles.
  • This advancement facilitates more effective and precise applications of CRISPR/Cas9 genome editing.